Preparation and Fuel Cell Performances of SPI/S-BEA Composite Proton Exchange Membranes

Kang-cheng Chen; Ding-bo Han; Zhi-ping Zhao; Wen-fang Liu

doi:10.11777/j.issn1000-3304.2015.14380

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Preparation and Fuel Cell Performances of SPI/S-BEA Composite Proton Exchange Membranes

Research Article | 更新时间：2021-03-19

- Preparation and Fuel Cell Performances of SPI/S-BEA Composite Proton Exchange Membranes
- Acta Polymerica Sinica Issue 6, Pages: 633-640(2015)
- 作者机构：
  
  北京理工大学化工与环境学院,北京,100081
- 作者简介：
- 基金信息：
- DOI：10.11777/j.issn1000-3304.2015.14380
  CLC：
- Published：20 June 2015，
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Kang-cheng Chen, Ding-bo Han, Zhi-ping Zhao, Wen-fang Liu. Preparation and Fuel Cell Performances of SPI/S-BEA Composite Proton Exchange Membranes. [J]. Acta Polymerica Sinica (6):633-640(2015)
DOI：

Kang-cheng Chen, Ding-bo Han, Zhi-ping Zhao, Wen-fang Liu. Preparation and Fuel Cell Performances of SPI/S-BEA Composite Proton Exchange Membranes. [J]. Acta Polymerica Sinica (6):633-640(2015) DOI： 10.11777/j.issn1000-3304.2015.14380.

摘要

通过在磺化聚酰亚胺(SPI)中加入具有高温保水功能的无机纳米粒子磺化多孔沸石(S-BEA)制备SPI/S-BEA复合质子交换膜(PEM). 扫描电镜显示当S-BEA含量为10%时(H1)

无机颗粒较为均一的分散在SPI PEM中

当S-BEA的含量提高到20%时(H2)

无机颗粒团聚增多

可明显观察到有机/无机宏观相分离界面. SPI/S-BEA复合PEM H1的离子交换容量(IEC)较SPI PEM M1下降了12%

由于S-BEA粒子的存在

吸水率并未有下降

膜中单位磺酸基团的水分子摩尔数从原来的23提高到10%杂化量时的26. 由于无机颗粒表面的羟基和高分子链的氢键作用

复合PEM在干燥和润湿环境下的尺寸变化并无明显增加

且保持良好的机械性能. 适量加入S-BEA的复合PEM的IEC值虽然有所下降

但低湿度下的质子传导率并未明显降低. 当S-BEA含量达到20%时

其明显的宏观相分离界面不利于质子在膜内的有效传导

质子传导率有所下降. 燃料电池性能测试表明

在90 ℃下

SPI/S-BEA复合PEM H1与SPI PEM M1相比较并未有明显的提高. 当电池温度提高到110 ℃后

由于无机粒子S-BEA的高温保水性能

复合PEM的电池性能要明显好于SPI PEM

如H1电池最大输出功率为0.61 W cm-2

相对M1提高了30%.

Abstract

Sulfonated porous zeolite (S-BEA) composite sulfonated polyimide (SPI) proton exchange membranes were prepared by mixing inorganic nanoparticles S-BEA with SPI solution.Scanning electron microscopy showed that inorganic particles S-BEA were fairly uniform dispersed in the SPI PEM

when the S-BEA content was 10% (H1).The agglomerated inorganic particles increased with the content up to 20% (H2)

the macro-phase interface separation was clearly observed.The ion exchange capacity (IEC) value of S-BEA composite PEM H1 was decreased by 12% when compared to that of M1 without composite

the water uptake of H1 barely decreased due to the existence of hydrophilic S-BEA.The number of sorbed water molecules per sulfonic acid group increased from 23 for M1 to 26 for H1.No obvious increase of membrane size change in dry/wet environment was observed for SPI/S-BEA composite PEMs due to the hydrogen bonding interaction of the hydroxyl groups on the inorganic particles surface with the polymer chain.These composited PEMs also showed excellent mechanical properties.The proton conductivity under low humidity for H1 with lower IEC value was comparable to that of M1.However

when the S-BEA content increased to 20%

the obvious macro-phase separation interface hindered the proton conducting in the PEM matrix

thus the proton conductivity of H2 decreased on the contrary.The proton exchange membrane fuel cell performance test showed H1 did not have clearly higher fuel cell performances than that of M1 at 90 ℃.When the fuel cell temperature increased to 110 ℃

due to the water retention property of inorganic particles S-BEA

H1 showed clearly better fuel cell performances than those of M1.For example

the maximum power output of SPI/S-BEA composite PEM H1 was 0.61 W cm-2

which was 30% higher than that of M1.

关键词

磺化聚酰亚胺磺化多孔沸石有机/无机复合质子交换膜燃料电池

Keywords

Sulfonated polyimideSulfonated porous zeoliteOrganic/inorganic compositeProton exchange membraneFuel cell

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School of Chemistry and Chemical Engineering, Beijing Institute of Technology

南京理工大学环境与生物工程学院

State Key Laboratory of Separation Membranes and Membrane Processes, Tianjin Polytechnic University

Department of Nonwoven materials and Engineering, College of Textile, Tianjin Polytechnic University

Changchun Institute of Applied Chemistry, Chinese Academy of Sciences

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